Methods, systems, and devices for reset verification in a memory system are described. In some examples, a memory device may perform a reset operation and set a mode register to a first value based on performing the reset operation. The first value may be associated with a successful execution of the reset command. The memory device may transmit an indication to a host device based on determining the first value. The host device may determine from the received indication or from the first value stored in the mode register that the first value is associated with the successful execution of the reset command. Thus, the memory device, or the host device, or both may be configured to verify whether the reset operation is successful.

Disclosed is a system including a memory device having a plurality of physical cells and a processing device, operatively coupled with the memory device, to perform operations that include selecting, responsive to detecting a power event, a subset of a plurality of memory cells of the memory device, the memory device being characterized by auxiliary read metadata identifying one or more read offsets for each of the plurality of memory cells, the one or more read offsets representing corrections to read signals applied to the respective memory cell during a read operation. The operations further include performing one or more diagnostic read operations for each of the subset of the plurality of memory cells of the memory device and modifying the auxiliary read metadata by updating the one or more read offsets for at least some of the plurality of memory cells of the memory device.

A memory device includes: a plurality of memory cells grouped into a plurality of planes; page buffer groups corresponding to respective ones of the plurality of planes, the page buffer groups including a plurality of page buffer circuits, each of the plurality of page buffer circuits including cache latches which are configured to receive data to be stored in memory cells in the plurality of planes; and control logic for controlling the page buffer groups to simultaneously initialize cache latches corresponding to at least two planes, among the cache latches, in response to a multi-plane program command, wherein the multi-plane program command instructs a multi-plane program operation of simultaneously storing data in plural planes among the plurality of planes.

A latch circuit includes a plurality of latch sets, each including an enable latch and a plurality of address latches; and a plurality of latch-width adjusting circuits respectively corresponding to the latch sets, wherein, in each of the plurality of latch sets, the corresponding latch-width adjusting circuit is disposed between the enable latch of the corresponding latch set and the address latch adjacent to the enable latch, and couples the enable latch to the adjacent address latch depending on whether or not the corresponding latch set is used, at an end of a boot-up operation.

A latch circuit includes a plurality of latch sets, each including an enable latch and a plurality of address latches; and a plurality of latch-width adjusting circuits respectively corresponding to the latch sets, wherein, in each of the plurality of latch sets, the corresponding latch-width adjusting circuit is disposed between the enable latch of the corresponding latch set and the address latch adjacent to the enable latch, and couples the enable latch to the adjacent address latch depending on whether or not the corresponding latch set is used, at an end of a boot-up operation.

A system performs analog memory sanitization by forcing voltage levels in memory cells to substantially the same voltage level so that they are indistinguishable regardless of the data that has been previously stored in the cells. In some embodiments, a special programming operation for sanitizing a plurality of memory cells forces the charge in the cells to approximately the same voltage level by increasing the voltage level of all cells regardless of the data currently stored in the cells. As an example, each cell may be programmed to a logical high bit value (e.g., a “0”) by increasing the charge in each cell to a voltage level that is greater than the voltage level for writing the same logical bit value in a normal programming operation. Thus, after the programming operation is performed, the voltage levels of cells storing one logical bit value (e.g., a “0”) prior to the programming operation may be indistinguishable from voltage levels of cells storing a different logical bit value (e.g., a “1”) prior to the programming operation.

Methods, systems and devices for configuring access to a memory device are disclosed. The configuration of the memory device may be carried out by creating a plurality of access profiles that are adapted to optimize access to the memory device in accordance with a type of access. For example, when an application with specific memory access needs is initiated, the memory access profile that is designed for that particular access need may be utilized to configure access to the memory device. The configuration may apply to a portion of the memory device, a partition of the memory device, a single access location on the memory device, or any combination thereof.

Methods, systems and devices for configuring access to a memory device are disclosed. The configuration of the memory device may be carried out by creating a plurality of access profiles that are adapted to optimize access to the memory device in accordance with a type of access. For example, when an application with specific memory access needs is initiated, the memory access profile that is designed for that particular access need may be utilized to configure access to the memory device. The configuration may apply to a portion of the memory device, a partition of the memory device, a single access location on the memory device, or any combination thereof.

A one time programmable OTP memory array and a read and write method thereof are provided. The OTP memory array according to the present disclosure includes M×N OTP memories, the OTP memories each include a storage MOS transistor, a first MOS transistor, a second MOS transistor and a detection MOS transistor, an isolation module is disposed between a control terminal of the detection MOS transistor and the storage MOS transistor; the isolation module includes at least one isolation MOS transistor; and in the array, a gate of each storage MOS transistor is connected to a same storage control point, each isolation MOS transistor is distinguished based on a distance from the storage MOS transistor, and gates of isolation MOS transistors with a same distance from the storage MOS transistor are connected to a same isolation control point.

A one time programmable OTP memory array and a read and write method thereof are provided. The OTP memory array according to the present disclosure includes M×N OTP memories, the OTP memories each include a storage MOS transistor, a first MOS transistor, a second MOS transistor and a detection MOS transistor, an isolation module is disposed between a control terminal of the detection MOS transistor and the storage MOS transistor; the isolation module includes at least one isolation MOS transistor; and in the array, a gate of each storage MOS transistor is connected to a same storage control point, each isolation MOS transistor is distinguished based on a distance from the storage MOS transistor, and gates of isolation MOS transistors with a same distance from the storage MOS transistor are connected to a same isolation control point.